US6353189B1ExpiredUtility

Wiring board, wiring board fabrication method, and semiconductor package

94
Assignee: TOSHIBA KKPriority: Apr 16, 1997Filed: Apr 16, 1998Granted: Mar 5, 2002
Est. expiryApr 16, 2017(expired)· nominal 20-yr term from priority
H10W 90/754H10W 90/734H10W 90/724H10W 72/884H10W 72/856H10W 44/216H10W 74/15H10W 74/012H10W 70/685H10W 70/635H10W 70/611H10W 44/20H10W 42/20H10W 40/228H05K 2201/09981H05K 1/0206H01P 3/088H01P 3/087H05K 3/4614H05K 2201/09845H05K 2203/1189H05K 2201/096H05K 3/4647H01P 1/047H05K 2201/09518H05K 1/113H05K 1/0222H05K 2201/09036H05K 1/0219H05K 2201/09618H01P 11/003H05K 2201/09509H05K 3/4069Y10T29/49165H05K 3/46Y10T29/49126
94
PatentIndex Score
245
Cited by
24
References
18
Claims

Abstract

A wiring board provided with a line 1 , a shield pattern 2 formed in parallel with the line 1 , a conductor layer 4 formed so as to face the line 1 and the shield pattern 2 through an insulating layer 3 , a conductor layer 6 formed so as to face the line 1 and the shield pattern 2 through an insulating layer 5 , and conductive pillars 7 a , 7 b for connecting the conductor layer 4 to the conductor layer 6 . The conductive pillars 7 a , 7 b are connected to each other through the shield pattern 2 . In the above structure, by supplying the ground potential to the shield pattern 2 , conductor layers 4, 6 , and conductive pillars 7 a , 7 b , an electromagnetic field is blocked in the direction where the line 1 extends over 360° about the line 1.

Claims

exact text as granted — not AI-modified
What is claimed is:  
     
       1. A wiring board, comprising: 
       a transmission line;  
       two sheets of shielding plates disposed above and below the transmission line along the transmission line;  
       conductive member that is disposed on both sides of the transmission line along the transmission line and connects electrically between the two sheets of shielding plates;  
       wherein the conductive member has a shape in which between the two sheets of shielding plates a plurality of substantially conical conductive pillars are disposed in one row alternating each direction thereof up and down in a direction vertical to the surface of the shielding plates; and  
       an insulating layer disposed between the transmission line and the shielding plates, and the conductive member.  
     
     
       2. The wiring board as set forth in  claim 1 , wherein the conductive member has a shape in which adjacent substantially conical conductive pillars contact themselves at surface portions thereof. 
     
     
       3. The wiring board as set forth in  claim 1 , wherein the conductive member has a shape in which adjacent substantially conical conductive pillars are spaced a prescribed distance apart. 
     
     
       4. A wiring board as set forth in  claim 1 , 
       wherein each of the substantially conical conductive pillars neighboring in a longitudinal direction of the transmission line which alternates each direction thereof up and down.  
     
     
       5. A wiring board, comprising: 
       a transmission line;  
       two sheets of shielding plates disposed above and below the transmission line along the transmission line;  
       an insulating layer disposed between the transmission line and the shielding plates; and  
       conductive member that is disposed on both sides of the transmission line along the transmission line and connects electrically between the two sheets of shielding plates;  
       wherein the conductive member is formed in such a way that on corresponding positions of the two sheets of shielding plates a plurality of substantially conical conductive pillars are disposed in one row, and in a state of sandwiching the insulating layer between the two sheets of shielding plates, the two sheets of shielding plates are pressed to make the substantially conical conductive pillars pierce through the insulating layer, and thereby at least between tip ends of the substantially conical conductive pillars and the shielding plate facing the tip ends are made contact.  
     
     
       6. The wiring board as set forth in  claim 5 , wherein the conductive member has a shape in which adjacent aforementioned conductive pillars contact themselves at surface portions thereof. 
     
     
       7. The wiring board as set forth in  claim 5 , wherein the conductive member has a shape in which the adjacent substantially conical pillars are spaced a prescribed distance apart. 
     
     
       8. A fabricating method of a wiring board, comprising the steps of: 
       forming a plurality of substantially conical conductive pillars on a portion where a shield pattern of a first conductor is destined to be formed;  
       forming a plurality of substantially conical conductive pillars on a portion where a shield pattern of a second conductor plate is destined to be formed;  
       pressing while sandwiching a board intermediate between the first conductor plate and the second conductor plate to connect electrically between the first conductor plate and the second conductor plate through the substantially conical conductive pillars; and  
       curing the board intermediate.  
     
     
       9. A fabricating method of a wiring board, comprising the steps of: 
       forming a plurality of substantially conical conductive pillars on a portion where a shield pattern of a first conductor plate is destined to be formed;  
       forming a plurality of substantially conical conductive pillars on a portion where a shield pattern of a second conductor plate is destined to be formed;  
       pressing while sandwiching a board intermediate between the first conductor plate and the second conductor plate to connect electrically the first conductor plate and the second conductor plate through the substantially conical conductive pillars;  
       forming a transmission line and a shield pattern on the second conductor plate;  
       forming a plurality of substantially conical conductive pillars on the shield pattern;  
       forming a plurality of substantially conical conductive pillars on a portion where a shield pattern of a third conductor plate is destined to be formed;  
       pressing while sandwiching a second board intermediate between the first board intermediate and the third conductor plate to electrically connect the shield pattern and the third conductor plate through the substantially conical conductive pillars; and  
       curing the board intermediate.  
     
     
       10. The fabricating method as set forth in  claim 9 , 
       wherein the step of forming substantially conical conductive pillars on the conductor plates is a step of disposing the substantially conical conductive pillars themselves closely.  
     
     
       11. The fabricating method as set forth in  claim 9 , 
       wherein the step of forming substantially conical conductive pillars on the conductor plates is a step of disposing the substantially conical conductive pillars themselves a prescribed distance apart.  
     
     
       12. A wiring board, comprising: 
       a first conductor layer having a first surface and a second surface;  
       a second conductor layer facing the first surface of the first conductor layer through a first insulating layer;  
       first interconnect cavity penetrated into the first insulating layer in the thickness direction of the first insulating layer to interconnect one surface of the first insulating layer with another surface of the first insulating layer;  
       first interconnect layer formed onto inner surface of the first interconnect cavity;  
       a third conductor layer facing the second surface of the first conductor layer through a second insulating layer;  
       second interconnect cavity formed on the position shifted from the first interconnect cavity in a longitudinal direction of the second insulating layer, and penetrated into the second insulating layer in the thickness direction of the second insulating layer to interconnect one surface of the second insulating layer with another surface of the second insulating layer;  
       second interconnect layer formed onto inner surface of the second interconnect cavity and contacted with the first interconnect cavity.  
     
     
       13. A wiring board as set forth in  claim 12 , further comprising: 
       a first interconnect cavity and a second interconnect cavity are through-holes.  
     
     
       14. A wiring board, comprising: 
       a first board made of an insulating material, having a first hardness;  
       a second board stacked directly with the first board and having a second hardness smaller than the first hardness; and  
       a conductive pillar disposed piercing the second board.  
     
     
       15. The wiring board as set forth in  claim 14 , wherein the second board is directly stacked on both surfaces of the first board. 
     
     
       16. The wiring board as set forth in  claim 14 , wherein the first board is a ceramic board and the second board is a resin board. 
     
     
       17. The wiring board as set forth in  claim 14 , wherein the first board is consisting of glass. 
     
     
       18. A fabricating method of a wiring board comprising: 
       forming a first wiring layer having a first via-land on a first surface of a first board made of an insulating material, having a first hardness;  
       forming on the first via-land a substantially conical conductive pillar having a third hardness smaller than the first hardness;  
       disposing a second board disposed on a second wiring layer having a second via-land on a first surface and having a second hardness smaller than the first hardness to face a first surface of the first board through uncured prepreg; and  
       pressing the first board, the prepreg and the second board in thickness direction to make the conductive pillar pierce through the prepreg, thereby connecting electrically the first via-land and the second via-land.

Cited by (0)

No later patents cite this yet.

References (0)

No backward citations on record.